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Dominican Scholar Dominican Scholar
Nursing | Senior Theses Department of Nursing
5-2020
Emergency Preparedness and Perceptions of Resident University Emergency Preparedness and Perceptions of Resident University
Students: Literature Review, Study Proposal & Impact of Students: Literature Review, Study Proposal & Impact of
Pandemic Crisis on Research Pandemic Crisis on Research
Madelyn Turner Dominican University of California
https://doi.org/10.33015/dominican.edu/2020.NURS.ST.16
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Recommended Citation Turner, Madelyn, "Emergency Preparedness and Perceptions of Resident University Students: Literature Review, Study Proposal & Impact of Pandemic Crisis on Research" (2020). Nursing | Senior Theses. 6. https://doi.org/10.33015/dominican.edu/2020.NURS.ST.16
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Running head: Emergency Preparedness of University Students 1
Emergency Preparedness and Perceptions of Resident University Students:
Literature Review, Study Proposal & Impact of Pandemic Crisis on Research
Madelyn Turner
Dominican University of California
Spring 2020
Emergency Preparedness of University Students 2
Abstract
Emergency preparedness is an essential step in mitigating negative impacts of disasters,
especially in an area affected by wildfires, power shutoffs, earthquakes, and flooding. Dominican
University of California resides within Marin County, and has experienced emergencies in the
past. Students are expected to prepare themselves to survive independently for 3-5 days. As
previous research has shown, college students often do not meet this expectation. This proposed
study will assess the current preparedness levels of students living on Dominican’s campus. It
will also determine how perceptions of emergency readiness contribute to actual preparedness.
Data collection was interrupted by the COVID-19 pandemic, threatening internal validity. A
summary of previous studies interrupted by disaster has been included in place of data analysis,
with parallels noted between preparation procedures for future natural disasters, local
emergencies, and pandemics.
Emergency Preparedness of University Students 3
Table of Contents
Abstract……………………………………………………………………………………………2
Introduction………………………………………………………………......................................4
Literature Review……………………………………………………………………………….…5
Survey Methods for Non-Student Populations……………………………………………6
College Student Population Analysis………………………………………………..……8
College Student Perceptions Analysis………………………………………………...…11
Literature Review Conclusion………………………………………………………...…12
Research Proposal……………………………………………………………………………..…13
Conclusion…………………………………………………………………………………….…18
References……………………………………………………………………………………..…20
Appendices……………………………………………………………………………………….24
Appendix A……………………………………………………………………………....24
Appendix B………………………………………………………………………………26
Emergency Preparedness of University Students 4
Emergency Preparedness and Perceptions of Resident University Students:
Literature Review, Study Proposal & Impact of Pandemic Crisis on Research
Introduction
Emergency preparedness is an essential step in mitigating negative impacts of disasters,
especially as the number of individuals effected by disasters in the United States is projected to
increase (CDC, 2015). In Marin County, California, emergencies such as fire, power shutoffs,
and earthquakes are the most likely to occur. According to risk assessments completed by
County organizations, 82% of land in Marin is ranked as having moderate to very high fire
hazard severity zone ratings, and there is a 52% chance of Marin being affected by a 6.7 or
greater earthquake before 2036 (Marin Co Fire Dept, 2016; Marin County, 2018). Public Safety
Power Shutoffs are done with increasing frequency by the local power company to decrease the
risk of wildfire instigation during red flag weather conditions (PG&E, 2019). Located within the
affected area is Dominican University of California, a private university hosting 1737 students
(DUoC, 2019). The numerous potential threats to campus safety indicate the need for all students
to be adequately prepared for an emergency, both in knowledge and supplies.
Studies have been previously done on efforts to increase awareness and action towards
household preparedness prior to disasters in the United States (FEMA, 2014). Increasing rates of
emergency preparedness can lead to less negative health outcomes after a disaster, which may
range from physical injuries to disease outbreaks to psychological impacts (CDC, 2019).
Resources like the federal government’s Ready website and events are available to the public to
encourage continued community efforts on the issue (Ready.gov, 2019).
Emergency Preparedness of University Students 5
Many resources and studies address vulnerable populations of disasters within risk-prone
areas, recognizing the increased needs for preparation within these communities (Aldrich, 2008;
Banks, 2016). College and university students have been understudied in comparison, despite
their unique roles in the community. Students can be considered vulnerable in terms of disaster
readiness due to a number of factors. They often live in rented short term housing, have limited
storage and funds for supplies, and are still learning to manage the challenges of living
independently from a family home. Tasks such as managing important documents and
maintaining an emergency kit are not priorities to a new student. The impact of these
observations is supported in previous research, which showed that students are less prepared for
disasters than their non-student renting counterparts in the same city (Mulilis, 2000).
In order to promote emergency readiness in any portion of a community, there must be a
present comprehension of the current resources and needs within that group. This proposed study
will survey students living on campus to better understand both their perceived preparedness and
actual preparedness for an emergency. The data will be applicable to disaster management
procedures for the University, as well as being used to identify specific needs of the student
population.
Literature Review
A review of the literature was completed to determine the existence of previous studies
done on college students’ emergency preparations as well as effective methods of surveying
college populations. Multiple combinations of terms were used to search journals, including:
campus, college students, university students, emergency preparedness, emergency readiness,
disaster preparedness, disaster readiness. A basic search of databases such as PubMed, CINAHL,
Emergency Preparedness of University Students 6
and ScienceDirect only lead to the finding of three of the articles included in the literature
review. All other studies were found through a reading of the reference list of the found articles.
Due to the limited number of previous studies, all related articles that followed the parameter of
assessing preparedness prior to an emergency were included in the review.
A total of ten articles were chosen for this literature review, all of which will be briefly
categorized and overviewed in this section. The full table with details of each article can be read
in Appendix B. The first category includes three articles that do not pertain directly to college
populations, but are examples of reliable and validated survey methods previously used to assess
emergency preparedness. The next category has four studies that assessed college student
populations and focused on differences between population groups in the analysis. The final
category contains three articles that surveyed college students and made specific correlational
analyses between perceptions of preparedness and actual preparedness.
Survey Methods for Non-Student Populations
Each of the three articles chosen to represent previous study methodology provide
separate perspectives. Two of the studies used the CDC’s tool known as the Community
Assessment for Public Health Emergency Response, or CASPER (Centers for Disease Control,
2019). This tool was developed by the CDC to rapidly and accurately determine the needs of a
community after a disaster has occurred. It has since been adapted for use prior to a disaster.
Local county public health departments are able to use CASPER to assess the lacking areas of
emergency preparedness in their community’s households.
A study was done using CASPER to compare the preparedness of different types of
households in Oakland County, Michigan (Murti, 2014). Using the typical CASPER
Emergency Preparedness of University Students 7
methodology of door to door interviews conducted at certain intervals between houses, they
gathered data from both single-detached homes and multi-unit dwellings. The questionnaire was
designed by building upon the basic survey supplied by the CDC. While the current proposed
study will not be doing door-to-door interviews, it will utilize the reflections on the Michigan
study’s survey tool. For instance, one question on the survey- “does your household have
multiple routes away from your home in case evacuation is necessary?” (Murti, 2014) was
interpreted differently by multiple participants. It will therefore be altered or excluded from this
proposed study’s survey. Another aspect of their questionnaire that will be utilized is the
emergency items that were considered necessary to ask about, which will be compared against
the items included in other studies.
While this article was chosen for inclusion due to its methodology, its results do also
relate to the target population of this current proposed study. It was found that single-detached
homes were better prepared for emergencies than multi-unit dwellings. Some of the same
potential factors that caused this difference could be applied to the students living on Dominican
University’s campus in dormitory style housing. Factors discussed in the Michigan study
included the limited storage in multi-unit dwellings, the inability to use non-electrical heat
sources such as gas when power is out, and lower socioeconomic status.
Another article also centered around CASPER, this time using focus groups in Texas
(Zane, 2016). These groups consisted of professionals who had conducted CASPERs in the past.
The themes that arose from these discussions will be used as general guidance for assessing the
community of Dominican’s resident students. A total of 70 lessons were described, some of
which were able to be related to a college campus. These included having clear objectives that
Emergency Preparedness of University Students 8
incorporate community leaders’ input, timing the assessment properly to not compete with other
events, and using past surveys as tools to build questions.
The final study in this methodology group was not a CASPER, however it was conducted
by the Center for Disease Control and Prevention. During a Ready event designed to prepare
their own staff members of the Atlanta metropolitan area for emergency situations, a
questionnaire was supplied prior to the training (Ready.gov, 2019; Thomas, 2015). This
questionnaire focused both on perceptions of the staff members and their preparedness level.
Based off of the perceptions, the participants were ranked in categories of knowledge level, risk
perception, self-efficacy, disaster experience, and social connectedness. These categories were
then correlated against the same participant’s emergency preparedness score. This methodology
allowed the study to not only determine the areas that their staff members needed to improve
most in, but also the potential reasons behind why certain areas were lacking. This same style of
questionnaire was used in a study on college students, which will be reviewed later in this
section.
College Student Population Analysis
This next group of articles assessed emergency preparedness specifically within student
populations. The resulting preparedness data was compared between demographic groups.
Lovekamp and Tate surveyed students at a Midwestern University to determine their
perceived preparedness, preparedness actions, and fear levels for potential disasters (2008). They
focused on the concept of vulnerable populations, which college students are included within.
Many previous studies have been done to show disparities in emergency readiness based off of
race, income level, and gender, which lead to groupings of vulnerable populations based off of
Emergency Preparedness of University Students 9
demographic values (citation needed). These had not been repeated in college student
populations, despite the disparities becoming increasingly multifactorial in this group. This study
was unique in identifying vulnerable subgroups within the greater population. The results were
reported as the rates of dependent variables (fear, perceived preparedness, preparedness) per each
demographic group. The final analysis included statements such as women and black students
being more fearful of potential disasters than males and white students. A relevant factor for this
present study was the finding that students are more likely to have completed basic survival
preparedness activities (having a first aid kit, flashlight, taking CPR classes), over planning tasks
(written plans, insurance) or hazard mitigation (structural reinforcement of homes, cabinet
latches). An extraneous factor in the article was the mix of type of students, which meant that
both undergraduate freshmen living on campus and graduate students owning their own home
could have been surveyed the same way. The expectations for structural reinforcement of homes,
for instance, should be very different across these groups. For the proposed study, the questions
will be tailored to the chosen population of on-campus resident students.
At Missouri State University, students were surveyed about their levels of disaster
preparedness and knowledge (Claborn, 2010). This study serves well as a basic foundation from
which to understand the state of emergency readiness on college campuses. Students were asked
about the essential preparations that are expected of all citizens, including means of evacuation,
plans for evacuation, and ownership of emergency items. According to this article, a significantly
lower number of students maintained emergency stores of food and water when compared to the
population of the United States, about 20% did not have transportation to evacuate with, and they
had an overall low level of familiarity with plans for evacuation and sheltering in place (Claborn,
2010). These results indicate that the general student population of this University are poorly
Emergency Preparedness of University Students 10
prepared for a disaster, which may be extrapolated with caution to other universities in the
United States.
University of South Florida also completed a study of college student preparedness,
focusing on undergraduate student knowledge and readiness for hurricanes (Simms, 2013). There
was a high level of knowledge gaps, for less than half of students could correctly identify
hurricane season, and even fewer knew of the nearest evacuation shelters. A lack of preparedness
despite experience with previous hurricanes was also found: only 28% had gathered minimal
supplies for a hurricane, and only 29% had an evacuation plan. The authors identified a general
lack of concern to be a major contributing factor towards low preparedness levels. This study
also analyzed responses by demographic, ultimately finding that students were highly
homogenous in both their answers to specific questions and in their overall responses. This
article provides additional support for a greater understanding of the emergency readiness of
modern college students.
Another study of college populations was completed at the University of Waterloo
(Tanner & Doberstein, 2015). This survey questioned students about their demographics,
wellbeing responsibility, preparedness, and ideas for further preparedness. The majority of the
students felt that they were most responsible for their own wellbeing during an emergency,
followed by their parents and the University. Although 72.5% of students did not have an
emergency kit, the majority of students still felt neutral about their perceived level of
preparedness. This study may indicate that students can be overconfident in their beliefs about
their personal preparedness levels.
Emergency Preparedness of University Students 11
The articles in this category serve to build a basic understanding of the levels of
emergency readiness in university students, and differences between various demographic
groups. When extrapolation is limited due to differences in university settings and sizes, having
multiple studies to analyze on can help piece together an overall image. These studies create a
greater image of disaster preparedness of college students in the United States.
College Student Perceptions Analysis
This next category encompasses articles which move past a basic understanding of
presence or lack of emergency preparedness. These studies also assess the perceptions of college
students about preparedness, and then analyze for correlations that may explain individual
students’ variations in readiness. The perceptions were measured through questions about topics
such as disaster likelihood, perceived preparedness, disaster experience, responsibility, disaster
knowledge and self-efficacy. Each article was able to draw conclusions about which topics
affected students’ preparedness the most.
Mulilis et al. took a unique approach to assessing college student populations (2000).
This group of researchers gave the same questionnaire to college students, non-student renters,
and non-student homeowners in the same city in Pennsylvania. They were able to compare the
results between types of housing and student status, which allows the ‘student’ aspect to be better
isolated. Overall, the student renters were less prepared than the non-student renters. This
demonstrates that there are factors outside of housing type that detrimentally effect university
students in disaster preparedness. Another important finding was as perceptions of personal
responsibility increases, so did the level of preparedness. Students had the lowest sense of
personal responsibility for their wellbeing after a disaster, and therefore had the lowest rates of
Emergency Preparedness of University Students 12
preparedness. A serious limitation in this study was that students were offered class credit for
taking the survey, which is an incentive that may be not be turned down lightly. Still, this study
is integral in isolating those factors that influence the emergency readiness of students.
A study done at a Southeastern University used perceptions of students as predicting
values for their actual preparedness (Tkachuck, 2018). They analyzed six domains of questions:
disaster likelihood, disaster concerns, perceived preparedness, actual preparedness, university
preparedness, and disaster experience. It was found that increased disaster experience, concern,
and likelihood were all predictors of increased actual preparedness in students. A limitation was
in the manner through which this study determined actual preparedness. The questionnaire only
asked about whether students owned specific items, ignoring important activities such as having
an evacuation plan or taking first aid training. The development of a survey for this current
proposed study will learn from both Tkachuck’s strengths and limitations. Many of the
perception domains will be included, as well as a more in-depth actual preparedness assessment.
Goddard et al. based their questionnaire after one done by the CDC, which was
summarized in a previous category (Goddard, 2018; Thomas, 2015). The methodology and
survey layout remained similar, but the population of focus was shifted to students of Missouri
State University. Students scored better for disaster preparedness if they had advanced
knowledge, high risk perception, high self-efficacy, and previous enrollment in disaster trainings.
Very few students had whistles, maps, or radios in their emergency kits, all of which are integral
items.
The assessment of perceptions is an essential step towards improving university students’
disaster readiness. Knowing whether the cause of decreased preparedness is a lack of knowledge,
Emergency Preparedness of University Students 13
experience, responsibility, etc. can lead to targeted interventions. The lessons learned from each
of these articles will be incorporated into the present proposed study.
Literature Review Conclusion
College students have been determined to be less prepared than the general population of
the United States and their renting counterparts in the same city (Claborn, 2010; Mulilis, 2000).
There was a significant lack of evacuations plans, hazard mitigation, and disaster knowledge
across studies (Claborn, 2010; Lovekamp, 2008; Simms, 2013). Factors that lead to increased
actual preparedness included advanced knowledge, high risk perception, high self-efficacy,
previous enrollment in disaster trainings, disaster experience, and sense of personal
responsibility (Goddard, 2018; Mulilis, 2000; Tkachuck, 2018). No studies were found that
constricted the study pool to on-campus resident students only. Resident students have many
differences from commuting students. They may not own a car, they may have less storage
space, and they have limited renter rights in their dorm room. Many of these were evidenced by
the campus evacuation in October of 2019 during a Public Safety Power Shutoff (PG&E, 2019).
Those without cars or family in the area had to find emergency shelter and may not have had the
necessary supplies that should be kept in an emergency kit for such events. Therefore, the
preparedness of on-campus students needs to be specifically addressed to prevent harm during
future emergency events.
Research Proposal
There is an absence in research done on the perceptions and actual preparedness of on-
campus resident college students. This assessment could be done at every university in the
nation, for emergency readiness is a necessity that every institution should address. The proposed
Emergency Preparedness of University Students 14
study will not only fill the research gap of on-campus disaster preparedness, but will also provide
basic information to assist in university procedures and future interventions.
Theoretical Framework
The theoretical framework to guide this study is the theory of planned behavior (Ajzen,
1991). Self-efficacy beliefs, social norms, and attitude are considered the main influences on pre-
determined behaviors in this theory. Emergency preparedness is a behavior that requires
planning by the individual, therefore the factors leading to the presence or absence of such
planning should be examined. The survey’s questions are designed to capture each of these
qualities and correlate them to actual preparedness of students.
Primary Aims
The primary research aims of the study are:
• Determine the perceptions of on-campus students about emergency preparedness.
• Determine the actual preparedness of on-campus students for emergencies.
• Calculate potential correlations between perceptions and actual preparedness
behaviors.
Research Design & Methodology
This survey will collect minimal personal information from the participants, none of
which could be traced back to any individual. The three demographic factors within the survey
are residence hall, grade level, and major. Each have been deemed to be necessary data in order
to have applicable results. All answers will be anonymous. If a lottery prize is offered upon
completion of the survey to increase recruitment rates, it will be a donated item from a local
Emergency Preparedness of University Students 15
community group. No monetary compensation will be given to participants, and no monetary
allocation will be supplied by the student researcher.
The study will be a mixed-methods, correlational survey collected from the population of
Dominican University’s on campus resident students. A total of about 470 students live on
campus (P. Raccanello, personal interview, Nov 6, 2019). After a meeting with campus
administrators, a goal of 150 responses was set by those administrators. This researcher would
consider a minimum of 50 responses sufficient for analysis. The survey will be distributed via
email by the Dean of Students to all residents of Pennafort, Fanjeaux, Edgehill Village, and the
Townhomes. An initial goal was outlined for having it distributed by the third week of the Spring
2020 semester.
To increase recruitment, a potential award will be offered for completing the Google
Forms survey. The prize would be related to the contents of the survey, such as a packed
emergency kit or specific emergency items. Anonymity will be conserved by having the
‘completion’ message include a link to an optional secondary survey through which an email
address can be entered. There will be no possible way to connect primary survey responses to
email address prize entries in the secondary survey. Additional recruitment measures may
include posting flyers in residence halls with a QR code that leads to the survey, or
announcements in classes that mainly consist of on-campus students.
Prior to the survey contents, a message explaining the purpose and content of the
questions will be included. An affirmation of anonymity will follow. No personal data will be
recorded in the main survey, and the entering of the prize contest will be optional. See a copy of
the survey tool in Appendix A. The formatting differs with its transcription to Google Forms.
Emergency Preparedness of University Students 16
The content of the survey questions is supported by the literature review. An attempt to
predict extraneous variables was made along with attempts to address them. For example, there
was a concern about students considering the resources of their Resident Assistants (RAs) to
mean that the students themselves do not have to prepare as adequately. During the meeting with
campus administrators, the RAs were confirmed to have first aid and CPR training certifications
as well as first aid kits in their rooms. Therefore, the questions about first aid kits and trainings
were purposefully designed in order to target what the student personally owned, rather than
what they may have access to on their dormitory floor. Overall, the University expects students
to be personally prepared in terms of supplies and evacuation plans.
Data Analysis
Basic descriptive statistics will be utilized to summarize and present the data set. In
addition, independent sample t-tests will be done between groups. The groups will be defined by
categorizing the survey answers, such as those with high self-efficacy beliefs and those with low
self-efficacy beliefs. The perceptions groupings will be analyzed for possible correlations with
actual preparedness scores. With this data, the three objectives of the study will be fulfilled.
Data collection was interrupted by the global outbreak of COVID-19. It was determined
that collecting information about emergency preparedness during an emergency is a threat to
internal validity. The collection of data will be delayed until students again reside in
Dominican’s dormitories, expected in Fall 2020.
Impact of Emergencies on Research Around the World
In place of an analysis of the data, a review of previous literature related to research
studies impacted by disaster was completed. The presence of previous research regarding this
Emergency Preparedness of University Students 17
topic is limited, especially literature specific to disease outbreak. A book authored by the
National Academies of Sciences, Engineering, and Medicine summarizes the effect of previous
disasters on studies, Strengthening the Disaster Resilience of the Academic Biomedical Research
Community (2017). They note the impacts of disaster across the spectrum of every study, from
the individual researcher to the academic research institution, the sponsor, and on overall
scientific discoveries. While often put in the context of natural disasters or extreme weather
events, many of these same impacts are also applicable in the presence of the COVID-19
outbreak. For instance, the individual researcher is presumed to be effected if the following
events occur due to a natural disaster: loss of ability to get to and from work, loss of work
environment, loss of employment, personal and psychological impacts, and career impacts.
These are all losses that researchers are currently experiencing in the pandemic. Due to shelter in
place orders in areas across the world, non-essential researchers must stay home from work and
they may have lost employment. Mental health resources are expected to be increasingly relied
upon to support those feeling socially isolated or stressed from other related factors (Galea,
2020). Individual researchers may have their careers impacted with delayed graduations or
doctoral defenses. Specific barriers faced by current studies have included the complete halting
of field research, limitation of resources to care for live organisms, and the stopping of clinical
trials that gave terminal patients hope (Kimborough, 2020; NPR, 2020).
The parallels between the previous impacts of natural disasters and the current impacts of
COVID-19 are numerous. This may indicate that similar strategies can be used in emergency
preparedness for research institutions. Every institution should establish a continuity of
operations plan that addresses how research will best preserved in different scenarios. With the
novelty of the COVID-19 outbreak, many institutions were not prepared for a multi-month
Emergency Preparedness of University Students 18
shelter in place order. Universities and other research groups should consider factors such as the
minimal staffing level essential for the preservation of samples and data security, what resources
and equipment must be maintained, and if any samples could be displaced to a home
environment. There should be a cross-sharing of knowledge between researchers so that multiple
people have the skills to maintain necessary systems.
Individual researchers should also consider emergency preparedness during the proposal
of their study. Topics to address include whether access to a specific campus or building is
needed, what is the minimum equipment needed, and a general analysis of external factors that
could be a threat to the validity of their research.
Emergency preparedness is an ever-evolving topic. As new emergencies are presented,
the world must adapt to be ready for the next iteration. In the case of research, having an
emergency plan in place could mean the preservation of years of data for one individual
researcher or graduating on time for another. COVID-19 has instigated a new reality for the
world, a reality in which multiple months of sheltering in place is possible. Researchers and their
institutions now have the responsibility to incorporate related preparedness plans into their
study’s proposal.
Conclusion
Previous studies have addressed the preparedness of college students for disaster
emergencies and have even correlated students’ perceptions against their actual preparedness
(Claborn, 2010; Goddard, 2018; Lovekamp, 2008; Mulilis, 2000; Simms, 2013; Tanner, 2015;
Tkachuck, 2018). There has been no previous literature which confines such a study to the on-
campus resident population. This information is important to university administrators, public
Emergency Preparedness of University Students 19
health organizations, and nursing practice. Even clinical nurses will encounter the effects of
emergencies in their practice. If students are congruent with the national population, encouraging
the preparedness of students will decrease resulting physical injuries, disease outbreaks, and
psychological impacts of emergencies (CDC, 2015). In turn, this will decrease the effect of
student disabilities and resources needs on hospitals and clinical nurses.
The information from this study can be directly used to identify proper interventions to be
taken by Dominican University of California. These interventions will help to increase the
emergency preparedness knowledge and behaviors of the students. Further studies may choose to
address off-campus students, other universities in the Bay Area, and effectiveness of specific
interventions. The goal of all such research should be to increase the preparedness of all residents
for disaster emergencies, therefore mitigating the negative impacts and promoting health in every
population. With COVID-19, we have seen a global shut-down that has not been achieved before
in modern history. Researchers must adapt to this outbreak with their own plans for data
preservation.
Emergency Preparedness of University Students 20
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shots/2020/04/11/832210606/coronovirus-pandemic-brings-hundreds-of-u-s-clinical-trials-
to-a-halt
PG&E. (2019). Public Safety Power Shutoffs. Retrieved from
https://www.pge.com/en_US/safety/emergency-preparedness/natural-
disaster/wildfires/public-safety-power-shutoff-faq.page
Ready.gov. (2019). Plan Ahead for Disasters. Retrieved from https://www.ready.gov/
Simms, J. L., Kusenbach, M., & Tobin, G. A. (2013). Equally unprepared: Assessing the
hurricane vulnerability of undergraduate students. Weather, Climate, and Society.
https://doi.org/10.1175/WCAS-D-12-00056.1
Tanner, A., & Doberstein, B. (2015). Emergency preparedness amongst university students.
International Journal of Disaster Risk Reduction.
https://doi.org/10.1016/j.ijdrr.2015.08.007
Thomas, T. N., Leander-Griffith, M., Harp, V., & Cioffi, J. P. (2015). Influences of preparedness
knowledge and beliefs on household disaster preparedness. Morbidity and Mortality Weekly
Report. https://doi.org/10.15585/mmwr.mm6435a2
Tkachuck, M. A., Schulenberg, S. E., & Lair, E. C. (2018). Natural disaster preparedness in
college students: Implications for institutions of higher learning. Journal of American
Emergency Preparedness of University Students 23
College Health. https://doi.org/10.1080/07448481.2018.1431897
Zane, D. F., Haywood, T., Adams, B., Alva, H., Heines, V., Feldt, B., … Horney, J. (2016).
Lessons Learned from the Field: Community Assessment for Public Health Emergency
Response (CASPER). Texas Public Health Journal, 68(1), 6–13.
Emergency Preparedness of University Students 24
Appendix A: Survey Tool
Purpose and Anonymity:
The purpose of this survey is to learn about the level of emergency preparedness of on-campus
students at Dominican. All results are anonymous, and your email address is not recorded.
Demographics
1. What is your grade level? (Circle one)
a. Freshman
b. Sophomore
c. Junior
d. Senior
e. Graduate student
2. Which residence hall do you live in? (Circle one)
a. Fanjeaux
b. Pennafort
c. Edgehill Village
d. Townhomes
e. I do not live within campus housing
3. What is your major?
__________________________________________
Perceptions
4. First responders recommend that community members be prepared to survive
independently for 3 days following an emergency while waiting for assistance to arrive.
How prepared do you feel to survive independently for 3-5 days after an emergency?
1= not prepared at all, 7= completely prepared
Circle a number: 1 2 3 4 5 6 7
5. How prepared do you feel the university is to respond to a potential emergency?
1= not prepared at all, 7= completely prepared
Circle a number: 1 2 3 4 5 6 7
6. To what level do you agree with the following: I am capable of building an emergency kit
and writing an emergency plan. 1= strongly disagree, 2= disagree, 3= somewhat disagree, 4= neutral, 5= somewhat agree, 6= agree, 7=
strongly agree
Circle a number: 1 2 3 4 5 6 7
7. To what level do you agree with the following: Having an emergency kit and written
emergency plan will help mitigate the harmful effects of this disaster.
Emergency Preparedness of University Students 25
1= strongly disagree, 2= disagree, 3= somewhat disagree, 4= neutral, 5= somewhat agree, 6= agree, 7=
strongly agree
a. Power outage 1 2 3 4 5 6 7
b. Fire 1 2 3 4 5 6 7
c. Earthquake 1 2 3 4 5 6 7
d. Flood 1 2 3 4 5 6 7
e. Mass violence 1 2 3 4 5 6 7
Preparedness
8. Do you have a dedicated emergency kit in your dorm room or car, with items specifically
collected and maintained for emergency purposes?
a. Yes b. No
9. Which of these supplies do you have available in your dorm room or car, whether in an
emergency kit or not? (Check all that apply)
Flashlight or headlight
3-day supply of water
3-day supply of non-perishable food
7-day supply of medications
Radio: battery powered or hand crank
Portable charger/power bank for cell phone
First aid kit
Multipurpose tool
Cash
Copies of personal documents
Family and emergency contact info
10. Do you have a written emergency plan?
a. Yes b. No
11. Have you completed any of the following activities: CPR training, first-aid training,
emergency response training?
a. Yes b. No
12. To what level do you agree with the following: This barrier prevents me from being fully
prepared for an emergency. 1= strongly disagree, 2= disagree, 3= somewhat disagree, 4= neutral, 5= somewhat agree, 6= agree, 7=
strongly agree
a. Cost of items 1 2 3 4 5 6 7
b. Feeling like the items/plans will never be used 1 2 3 4 5 6 7
c. Lack of storage space to keep emergency items 1 2 3 4 5 6 7
d. Lack of experience with disasters 1 2 3 4 5 6 7
e. Lack of knowledge about how to be prepared 1 2 3 4 5 6 7
f. Lack of awareness about the need to be prepared 1 2 3 4 5 6 7
Emergency Preparedness of University Students 26
g. Other barrier(s) not listed:
___________________________________________________
13. Do you have any medical conditions that would:
a. Make it more difficult to prepare adequately for an emergency?
i. Yes ii. No
b. Make it more difficult to evacuate campus if needed?
i. Yes ii. No
c. Require additional equipment to be maintained during an emergency (ex: fridge
for medications)
i. Yes ii. No
14. During the campus evacuations due to the public safety power shutoff in October 2019,
where did you evacuate to? (Circle one)
a. My parent’s or legal guardian’s home
b. The home of another family member or friend within 2 hours of driving
c. The home of another family member or friend more than 2 hours of driving away
d. An emergency shelter
e. I did not live on campus during the Fall 2019 semester
f. Other ____________________________
Interventions
15. To what level do you agree with the following: I would be interested in attending this
activity if offered on campus at no cost. 1= strongly disagree, 2= disagree, 3= somewhat disagree, 4= neutral, 5= somewhat agree, 6= agree, 7=
strongly agree
a. Emergency kit packing night 1 2 3 4 5 6 7
b. CPR training on campus 1 2 3 4 5 6 7
c. CERT training on campus (Community Emergency Response Team) 1 2 3 4 5 6 7
16. What do you feel the university can do to help you be better prepared?
__________________________________________________________________
__________________________________________________________________
__________________________________________________________________
Confirmation Message
Thank you for completing the survey!
Link to drawing for emergency kit: https://forms.gle/6Tcur1Cy35NGoNGb9
Want to learn how to prepare for an emergency? Follow these links: https://readymarin.org/ and
https://www.ready.gov/
Emergency Preparedness of University Students 26
Appendix B: Literature Review Table
Authors/Citation Purpose/Objective of Study
Sample - Population of interest, sample size
Study Design Study Methods Major Finding(s) Strengths Limitations
Murti, M., Bayleyegn, T., Stanbury, M., (2014). Household emergency preparedness by housing type from a community assessment for public health emergency response (CASPER), Michigan. Disaster medicine and public health preparedness, 8(1), 12–19. doi:10.1017/dmp.2013.111
To find associations between CASPER emergency preparedness data and household type for residents of Oakland County, Michigan
192 surveys were completed, 150 single-detached homes and 42 multi-unit dwellings.
Comparative survey research
Trained survey staff teams conducted interviews through door-to-door data collection, per CASPER protocol. The questionnaire was two-pages of self-reported household emergency preparedness data. Teams also classified each household as a type of housing.
Type of housing had no significant effect on demographics (except income) and medical condition presence. Single-detached homes were equally or better prepared for emergencies than multi-unit dwellings in all categories. Statistically significant categories included: owning a generator, owning a back-up heat source, having a way to cook without utilities, and having a 3-day supply of water.
Avoided sensitive data to allow for high response rate. Detailed description of methods and sampling, followed the reliable and validated CASPER model directly.
Income levels from census, may not be current and accurate. Other demographic factors may be affecting results (ethnicity, education level). Household response rate either not collected or not reported. Differing interpretations of same question by participants.
Thomas, T. N., Leander-Griffith, M., Harp, V., & Cioffi, J. P. (2015). Influences of preparedness knowledge and beliefs on household disaster preparedness. Morbidity and Mortality Weekly Report. https://doi.org/10.15585/mmwr.mm6435a2
To correlate actual preparedness (per specific items and actions) against risk perception, preparedness perception, knowledge level, and self-efficacy beliefs
439 CDC staff members living in metropolitan Atlanta
Quantitative correlational survey research
Survey was administered as a pre-assessment to a Ready CDC training session. Questions on knowledge level, risk perception, self-efficacy, disaster experience, and social connectedness were correlated against specific emergency preparedness items/behaviors.
Significant differences in preparedness behaviors against knowledge level. Stronger risk perception beliefs correlated with having an emergency kit, but not a plan or community involvement. Preparedness beliefs and self-efficacy beliefs were associated with both having a kit and plan. Those with higher preparedness knowledge and social connectedness were high adopters of household preparedness.
Large study done on a unique population, those who are employed in a sector where a certain degree of preparedness is expected. Survey tool well developed, used in future studies by other researchers.
Low enrollment rate for both event & survey. Not easily generalizable to the US population, due to type of employment and education levels.
Emergency Preparedness of University Students 28
Zane, D. F., Haywood, T., Adams, B., et. al (2016). Lessons Learned from the Field: Community Assessment for Public Health Emergency Response (CASPER). Texas Public Health Journal, 68(1), 6–13.
To identify lessons learned by those who have conducted CASPERs and sharing the lessons with public health professionals to benefit future community assessments.
Key informants at agencies and organizations in Texas that conducted CASPERs from 2008-2015. A snowballing method was used to find 18 total participants.
Qualitative descriptive, focus groups
Semi structured focus group interviews and email communications were used to gain insight on various topics involved in a CASPER study. The lessons were then categorized in relation to the pre-existing phases of CASPER.
70 total lessons learned. These included specifics such as developing clear objectives, expense planning, proper team training, utilizing social media, sharing field report within 48 hrs of data collection for rapid disaster response.
Previously under-researched topic. Thorough assessment and analyzing of data. Good sample size for such a specific population.
No IRB approval was sought, considered not be a requirement. Experts limited to one state, despite CASPERs being done nationally.
Claborn, D. (2010). Emergency Preparedness of Individual Students at a Large State University in Missouri. Journal of the Institute of Justice and International Studies, 10, 33–44.
To assess the level of emergency preparedness of college students, determining their status as a potentially vulnerable population.
370 surveys completed by undergraduate students at Missouri State University
Correlational Survey research
Convenience sample of students gathered by recruiting volunteers from a central part of campus. A written survey was given of 14 questions about perceptions of risk and level of preparedness, with additional questions about demographics included.
Most respondents had personal transportation to evacuate with and most would go to their parent’s household. For most emergency supplies, the students had less than the national population. Few students were familiar with either evacuation plans or shelter in place plans.
Unique study for the time it was done, referenced by other articles in the same field. Large sample size for the total population.
High rate of surveys completed incorrectly (almost 20%) indicates need for the problematic question to be rewritten. May be hard to apply to universities of different sizes.
Lovekamp, W. E., & Tate, M. L. (2008). College student disaster risk, fear and preparedness. International Journal of Mass Emergencies and Disasters, 26(2), 70–90.
To examine perceived risk and actual preparedness of students. Various hypotheses made about vulnerable populations within the student body.
192 students from a Midwestern University
Quantitative correlational survey research
Students recruited during two different semesters of the same class. Given a paper survey, which could be dropped off later or taken online instead.
Students believed that a tornado was much more likely to affect them than an earthquake. However, they felt more prepared for a tornado, and felt as if the University was also more prepared for a tornado. Students were most likely to have completed survival preparedness activities (first aid kit, flashlight, CPR classes), over planning tasks (plans, insurance) or hazard mitigation (structural reinforcement of homes, cabinet latches).
Demographics of sample matched the University population. Vulnerable populations emphasized. Anonymity and voluntary participation encouraged and handled appropriately. Survey based off of previously proven outlines.
Some questions not applicable to undergraduate students, who often do not have control over insurance or home renovations. Small sample for the population size and the potential total sample size.
Emergency Preparedness of University Students 29
Simms, J. L., Kusenbach, M., & Tobin, G. A. (2013). Equally unprepared: Assessing the hurricane vulnerability of undergraduate students. Weather, Climate, and Society. https://doi.org/10.1175/WCAS-D-12-00056.1
To examine the self-reported perceptions and preparedness of students as well as the level of homogeneity within the group.
503 undergraduate students
Mixed methods survey research
In-person surveys conducted in high traffic areas of campus. Survey consisted of 39 questions, mostly yes/no and Likert scale.
There was a high level of knowledge gaps (less than half of students could correctly identify hurricane season, even fewer knew of the nearest evacuation shelters), lack of preparedness despite experience (28% had gathered minimal supplies for a hurricane, 29% had an evacuation plan), and lack of concern. Students were highly homogenous in both their answers to specific questions and in their overall responses.
Large enough sample size for total population. Specific details about survey questions included. This study is commonly referenced in related literature.
Not truly random sampling, more biased to those willing to stop at a table and answer questions. External factors may influence results, factors that were not investigated in this survey.
Tanner, A., & Doberstein, B. (2015). Emergency preparedness amongst university students. International Journal of Disaster Risk Reduction. https://doi.org/10.1016/j.ijdrr.2015.08.007
To assess the emergency preparedness of university students by evaluating their personal qualities and their stored supplies.
80 off-campus students from the University of Waterloo in Southern Ontario.
Inductive, mixed methods survey research
Online survey distributed via convenience sampling to off-campus students in non-parental housing. The survey included both open ended (1) and closed ended (19) questions. Participants gathered through in-class announcements, posters, and handouts.
The majority of the students felt that they were most responsible for their own wellbeing during an emergency, followed by their parents and the University. 72.5% of students did not have an emergency kit, although many had the individual components throughout their home. The majority of students felt neutral about their perceived level of preparedness. Students wanted information about what should be in a first aid kit, emails from admin about what should be in a kit and what should be done in an emergency.
Multiple perspectives were used to gain accurate information (in addition to asking about whole emergency kit, survey listed individual items). Consistent population. Underrepresented group.
Many of the students who completed the study were those taking a course on Natural Hazards, they may have better knowledge than general population. Small sample size compared to total campus. Specific survey questions rarely included/described.
Goddard, S., Sheppard, M., & Thompson, K. (2018). Disaster Preparedness Knowledge, Beliefs, Risk-Perceptions, and Mitigating Factors of Disaster Preparedness Behaviors of Undergraduate Students at a Large Midwest University. Journal of Public Health Issues and Practices, 2. https://doi.org/10.33790/jphip1100115
To assess differences in disaster preparedness of college students based off of levels of knowledge, risk perception, beliefs, CERT or first aid training, and self-efficacy.
390 undergraduate students from Missouri State University
Correlational quantitative survey research
Convenience sample of students collected through both a general education class, and by tabling in a high traffic part of campus. The written survey was based off of a previous study done by the CDC and had a total of 27 questions. Scores were assigned based off of the number of emergency supplies or behaviors chosen, and analyzed against 5 additional qualifications.
Students scored better for disaster preparedness if they had advanced knowledge, high-risk perception, high self-efficacy, and previous enrollment in CERT/CPR. The most common items to have packed were flashlights, hygiene items, first-aid kit. The least common items were whistles, maps, and radios.
Total participants exceeded the minimum sample size needed to be statistically significant. Similar to results from previous study at the same university. Similar distribution of demographics to overall university population.
Survey tool was not initially developed for undergraduate students. Data collected during same time for each period, may represent only a portion of the student population.
Emergency Preparedness of University Students 30
Demographic data was collected as well.
Mulilis, J. P., Duval, T. S., & Bovalino, K. (2000). Tornado preparedness of students, nonstudent renters, and nonstudent owners: Issues of PrE theory. Journal of Applied Social Psychology, 30(6), 1310–1329. https://doi.org/10.1111/j.1559-1816.2000.tb02522.x
To determine the underlying factors of the differences in preparedness between types of housing: student renters, non-student renters, and homeowners.
63 undergraduate students of Pennsylvania State University, 145 nonstudent residents of Monaca, Pennsylvania (91 homeowners, 54 renters).
Correlational quantitative survey research
Students recruited from a intro psych class, completed survey for class credit. 205 houses randomly selected and approached up to ten times in an attempt to complete the questionnaire. Survey consisted of 13 demographic questions, 27 preparedness questions, 2 responsibility questions, and 17 perceptions questions.
As perceptions of personal responsibility increased, so did level of preparedness. The lowest of these were students, the highest nonstudent homeowners. In addition, homeowners had the most resources and considered themselves to need the least amount of additional resources during a tornado. Students were on the opposing side of the spectrum.
Many aspects based off of previous studies and proven theories (survey style, psychosocial theories, methodology). Typical response rate for the type of survey.
Students were offered class credit for taking the survey, which may lead to biased responses. For the length of the survey, very few groups/themes were determined (example: 17 item psychosocial section was parred down to whether the participants felt they had enough resources for a tornado).
Tkachuck, M. A., Schulenberg, S. E., & Lair, E. C. (2018). Natural disaster preparedness in college students: Implications for institutions of higher learning. Journal of American College Health. https://doi.org/10.1080/07448481.2018.1431897
To evaluate the factors that influence the preparedness of students for emergencies.
765 undergraduate and graduate students at a southeastern US university.
Exploratory cross-sectional survey
Online survey distributed via email to all students currently enrolled in classes. 30 questions, including 9 demographic questions and 2 open ended questions. The six domains were: disaster likelihood, disaster concerns, perceived preparedness, actual preparedness, university preparedness, and disaster experience.
Disaster experience, concern, and likelihood were all predictors of actual preparedness in students. In some students, the less concerned they were for disasters, the more prepared they perceived themselves to be. For some, the more confidence they had in the University’s preparedness, the more emergency supplies they reported having. Those with more experience with disasters had higher expectations of the University to be prepared.
Specifics about questions in the survey where included. Frequently compares its results directly against previous studies. Large sample size.
Other factors likely influenced results that could/were not included in the survey. Actual preparedness was assessed only by asking what supplies were in the household (ignoring activities like having a plan, signing up for alerts, etc)
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